Reverse transcriptase directs viral evolution in a deep ocean methane seep
Deep ocean methane seeps are sites of intense microbial activity, with complex
communities fueled by aerobic and anaerobic methanotrophy. Methane consumption in …
communities fueled by aerobic and anaerobic methanotrophy. Methane consumption in …
[PDF][PDF] Ecology, Diversity, and Biogeochemical Contribution of Viruses in Methane-Rich Sediments
A Philosof, J Victoria - genomicscience.energy.gov
The overarching goal is to expand the understanding of interactions and fundamental
activities involved in cycling of carbon and nutrients by syntrophic methanotrophic archaeal …
activities involved in cycling of carbon and nutrients by syntrophic methanotrophic archaeal …
[PDF][PDF] Characterization of viral assemblages in methane-saturated sediments and their Spatio-temporal Dynamics
A Philosof, A Narayanan, MA Sanchez, AL Vicedo… - genomicscience.energy.gov
The overarching goal is to characterize the role of viruses in the ecology and
biogeochemical cycling in methane saturated sediments, especially their impact on the …
biogeochemical cycling in methane saturated sediments, especially their impact on the …
A novel sister clade to the enterobacteria microviruses (family Microviridae) identified in methane seep sediments
Methane seep microbial communities perform a key ecosystem service by consuming the
greenhouse gas methane prior to its release into the hydrosphere, minimizing the impact of …
greenhouse gas methane prior to its release into the hydrosphere, minimizing the impact of …
[HTML][HTML] Viral potential to modulate microbial methane metabolism varies by habitat
Methane is a potent greenhouse gas contributing to global warming. Microorganisms largely
drive the biogeochemical cycling of methane, yet little is known about viral contributions to …
drive the biogeochemical cycling of methane, yet little is known about viral contributions to …
Viral modulation of microbial methane production and oxidation varies by habitat
Sažetak Methane is a potent greenhouse gas contributing to global warming. Micro-
organisms largely drive the biogeochemical cycling of methane, yet little is known about viral …
organisms largely drive the biogeochemical cycling of methane, yet little is known about viral …
Analysis of a viral metagenomic library from 200 m depth in Monterey Bay, California constructed by direct shotgun cloning
S Grieg, P Christina - 2011 - agris.fao.org
Background Viruses have a profound influence on both the ecology and evolution of marine
plankton, but the genetic diversity of viral assemblages, particularly those in deeper ocean …
plankton, but the genetic diversity of viral assemblages, particularly those in deeper ocean …
[HTML][HTML] Analysis of a viral metagenomic library from 200 m depth in Monterey Bay, California constructed by direct shotgun cloning
GF Steward, CM Preston - Virology journal, 2011 - Springer
Background Viruses have a profound influence on both the ecology and evolution of marine
plankton, but the genetic diversity of viral assemblages, particularly those in deeper ocean …
plankton, but the genetic diversity of viral assemblages, particularly those in deeper ocean …
[图书][B] Novel Microbes and Viruses with Roles in Biogeochemical Cycling and Eukaryogenesis in Marine Systems
IM Rambo - 2021 - search.proquest.com
The recent rapid expansion of the microbial tree of life and discovery of novel viruses via
metagenomics has exposed the sheer magnitude of the uncultured majority that exists on …
metagenomics has exposed the sheer magnitude of the uncultured majority that exists on …
[HTML][HTML] Evolutionary diversification of methanotrophic ANME-1 archaea and their expansive virome
Abstract 'Candidatus Methanophagales'(ANME-1) is an order-level clade of archaea
responsible for anaerobic methane oxidation in deep-sea sediments. The diversity, ecology …
responsible for anaerobic methane oxidation in deep-sea sediments. The diversity, ecology …